// Copyright (c) Microsoft Corporation.  All Rights Reserved.  See License.txt in the project root for license information.

module internal FSharp.Compiler.AbstractIL.AsciiConstants

open Internal.Utilities.Collections
open Internal.Utilities.Library
open FSharp.Compiler.AbstractIL.IL

/// Table of parsing and pretty printing data for instructions.
let noArgInstrs =
    lazy
        [
            [ "ldc"; "i4"; "0" ], mkLdcInt32 0
            [ "ldc"; "i4"; "1" ], mkLdcInt32 1
            [ "ldc"; "i4"; "2" ], mkLdcInt32 2
            [ "ldc"; "i4"; "3" ], mkLdcInt32 3
            [ "ldc"; "i4"; "4" ], mkLdcInt32 4
            [ "ldc"; "i4"; "5" ], mkLdcInt32 5
            [ "ldc"; "i4"; "6" ], mkLdcInt32 6
            [ "ldc"; "i4"; "7" ], mkLdcInt32 7
            [ "ldc"; "i4"; "8" ], mkLdcInt32 8
            [ "ldc"; "i4"; "M1" ], mkLdcInt32 -1
            [ "ldc"; "i4"; "m1" ], mkLdcInt32 -1
            [ "stloc"; "0" ], mkStloc (uint16 0)
            [ "stloc"; "1" ], mkStloc (uint16 1)
            [ "stloc"; "2" ], mkStloc (uint16 2)
            [ "stloc"; "3" ], mkStloc (uint16 3)
            [ "ldloc"; "0" ], mkLdloc (uint16 0)
            [ "ldloc"; "1" ], mkLdloc (uint16 1)
            [ "ldloc"; "2" ], mkLdloc (uint16 2)
            [ "ldloc"; "3" ], mkLdloc (uint16 3)
            [ "ldarg"; "0" ], mkLdarg (uint16 0)
            [ "ldarg"; "1" ], mkLdarg (uint16 1)
            [ "ldarg"; "2" ], mkLdarg (uint16 2)
            [ "ldarg"; "3" ], mkLdarg (uint16 3)
            [ "ret" ], I_ret
            [ "add" ], AI_add
            [ "add"; "ovf" ], AI_add_ovf
            [ "add"; "ovf"; "un" ], AI_add_ovf_un
            [ "and" ], AI_and
            [ "div" ], AI_div
            [ "div"; "un" ], AI_div_un
            [ "ceq" ], AI_ceq
            [ "cgt" ], AI_cgt
            [ "cgt"; "un" ], AI_cgt_un
            [ "clt" ], AI_clt
            [ "clt"; "un" ], AI_clt_un
            [ "conv"; "i1" ], AI_conv DT_I1
            [ "conv"; "i2" ], AI_conv DT_I2
            [ "conv"; "i4" ], AI_conv DT_I4
            [ "conv"; "i8" ], AI_conv DT_I8
            [ "conv"; "i" ], AI_conv DT_I
            [ "conv"; "r4" ], AI_conv DT_R4
            [ "conv"; "r8" ], AI_conv DT_R8
            [ "conv"; "u1" ], AI_conv DT_U1
            [ "conv"; "u2" ], AI_conv DT_U2
            [ "conv"; "u4" ], AI_conv DT_U4
            [ "conv"; "u8" ], AI_conv DT_U8
            [ "conv"; "u" ], AI_conv DT_U
            [ "conv"; "r"; "un" ], AI_conv DT_R
            [ "conv"; "ovf"; "i1" ], AI_conv_ovf DT_I1
            [ "conv"; "ovf"; "i2" ], AI_conv_ovf DT_I2
            [ "conv"; "ovf"; "i4" ], AI_conv_ovf DT_I4
            [ "conv"; "ovf"; "i8" ], AI_conv_ovf DT_I8
            [ "conv"; "ovf"; "i" ], AI_conv_ovf DT_I
            [ "conv"; "ovf"; "u1" ], AI_conv_ovf DT_U1
            [ "conv"; "ovf"; "u2" ], AI_conv_ovf DT_U2
            [ "conv"; "ovf"; "u4" ], AI_conv_ovf DT_U4
            [ "conv"; "ovf"; "u8" ], AI_conv_ovf DT_U8
            [ "conv"; "ovf"; "u" ], AI_conv_ovf DT_U
            [ "conv"; "ovf"; "i1"; "un" ], AI_conv_ovf_un DT_I1
            [ "conv"; "ovf"; "i2"; "un" ], AI_conv_ovf_un DT_I2
            [ "conv"; "ovf"; "i4"; "un" ], AI_conv_ovf_un DT_I4
            [ "conv"; "ovf"; "i8"; "un" ], AI_conv_ovf_un DT_I8
            [ "conv"; "ovf"; "i"; "un" ], AI_conv_ovf_un DT_I
            [ "conv"; "ovf"; "u1"; "un" ], AI_conv_ovf_un DT_U1
            [ "conv"; "ovf"; "u2"; "un" ], AI_conv_ovf_un DT_U2
            [ "conv"; "ovf"; "u4"; "un" ], AI_conv_ovf_un DT_U4
            [ "conv"; "ovf"; "u8"; "un" ], AI_conv_ovf_un DT_U8
            [ "conv"; "ovf"; "u"; "un" ], AI_conv_ovf_un DT_U
            [ "stelem"; "i1" ], I_stelem DT_I1
            [ "stelem"; "i2" ], I_stelem DT_I2
            [ "stelem"; "i4" ], I_stelem DT_I4
            [ "stelem"; "i8" ], I_stelem DT_I8
            [ "stelem"; "r4" ], I_stelem DT_R4
            [ "stelem"; "r8" ], I_stelem DT_R8
            [ "stelem"; "i" ], I_stelem DT_I
            [ "stelem"; "u" ], I_stelem DT_I
            [ "stelem"; "u8" ], I_stelem DT_I8
            [ "stelem"; "ref" ], I_stelem DT_REF
            [ "ldelem"; "i1" ], I_ldelem DT_I1
            [ "ldelem"; "i2" ], I_ldelem DT_I2
            [ "ldelem"; "i4" ], I_ldelem DT_I4
            [ "ldelem"; "i8" ], I_ldelem DT_I8
            [ "ldelem"; "u8" ], I_ldelem DT_I8
            [ "ldelem"; "u1" ], I_ldelem DT_U1
            [ "ldelem"; "u2" ], I_ldelem DT_U2
            [ "ldelem"; "u4" ], I_ldelem DT_U4
            [ "ldelem"; "r4" ], I_ldelem DT_R4
            [ "ldelem"; "r8" ], I_ldelem DT_R8
            [ "ldelem"; "u" ], I_ldelem DT_I // EQUIV
            [ "ldelem"; "i" ], I_ldelem DT_I
            [ "ldelem"; "ref" ], I_ldelem DT_REF
            [ "mul" ], AI_mul
            [ "mul"; "ovf" ], AI_mul_ovf
            [ "mul"; "ovf"; "un" ], AI_mul_ovf_un
            [ "rem" ], AI_rem
            [ "rem"; "un" ], AI_rem_un
            [ "shl" ], AI_shl
            [ "shr" ], AI_shr
            [ "shr"; "un" ], AI_shr_un
            [ "sub" ], AI_sub
            [ "sub"; "ovf" ], AI_sub_ovf
            [ "sub"; "ovf"; "un" ], AI_sub_ovf_un
            [ "xor" ], AI_xor
            [ "or" ], AI_or
            [ "neg" ], AI_neg
            [ "not" ], AI_not
            [ "ldnull" ], AI_ldnull
            [ "dup" ], AI_dup
            [ "pop" ], AI_pop
            [ "ckfinite" ], AI_ckfinite
            [ "nop" ], AI_nop
            [ "break" ], I_break
            [ "arglist" ], I_arglist
            [ "endfilter" ], I_endfilter
            [ "endfinally" ], I_endfinally
            [ "refanytype" ], I_refanytype
            [ "localloc" ], I_localloc
            [ "throw" ], I_throw
            [ "ldlen" ], I_ldlen
            [ "rethrow" ], I_rethrow
        ]

#if DEBUG
let wordsOfNoArgInstr, isNoArgInstr =
    let t =
        lazy
            (let t = HashMultiMap(300, HashIdentity.Structural)
             noArgInstrs |> Lazy.force |> List.iter (fun (x, mk) -> t.Add(mk, x))
             t)

    (fun s -> (Lazy.force t)[s]), (fun s -> (Lazy.force t).ContainsKey s)
#endif

let mk_stind (nm, dt) =
    (nm, (fun () -> I_stind(Aligned, Nonvolatile, dt)))

let mk_ldind (nm, dt) =
    (nm, (fun () -> I_ldind(Aligned, Nonvolatile, dt)))

type NoArgInstr = unit -> ILInstr
type Int32Instr = int32 -> ILInstr
type Int32Int32Instr = int32 * int32 -> ILInstr
type Int64Instr = int64 -> ILInstr
type DoubleInstr = ILConst -> ILInstr
type MethodSpecInstr = ILMethodSpec * ILVarArgs -> ILInstr
type TypeInstr = ILType -> ILInstr
type IntTypeInstr = int * ILType -> ILInstr
type ValueTypeInstr = ILType -> ILInstr (* nb. diff. interp of types to TypeInstr *)
type StringInstr = string -> ILInstr
type TokenInstr = ILToken -> ILInstr
type SwitchInstr = ILCodeLabel list * ILCodeLabel -> ILInstr

type InstrTable<'T> = (string list * 'T) list
type LazyInstrTable<'T> = Lazy<InstrTable<'T>>

/// Table of parsing and pretty printing data for instructions.
let NoArgInstrs: Lazy<InstrTable<NoArgInstr>> =
    lazy
        [
            for nm, i in noArgInstrs.Force() do
                yield (nm, (fun () -> i))
            yield mk_stind ([ "stind"; "u" ], DT_I)
            yield mk_stind ([ "stind"; "i" ], DT_I)
            yield mk_stind ([ "stind"; "u1" ], DT_I1)
            yield mk_stind ([ "stind"; "i1" ], DT_I1)
            yield mk_stind ([ "stind"; "u2" ], DT_I2)
            yield mk_stind ([ "stind"; "i2" ], DT_I2)
            yield mk_stind ([ "stind"; "u4" ], DT_I4)
            yield mk_stind ([ "stind"; "i4" ], DT_I4)
            yield mk_stind ([ "stind"; "u8" ], DT_I8)
            yield mk_stind ([ "stind"; "i8" ], DT_I8)
            yield mk_stind ([ "stind"; "r4" ], DT_R4)
            yield mk_stind ([ "stind"; "r8" ], DT_R8)
            yield mk_stind ([ "stind"; "ref" ], DT_REF)
            yield mk_ldind ([ "ldind"; "i" ], DT_I)
            yield mk_ldind ([ "ldind"; "i1" ], DT_I1)
            yield mk_ldind ([ "ldind"; "i2" ], DT_I2)
            yield mk_ldind ([ "ldind"; "i4" ], DT_I4)
            yield mk_ldind ([ "ldind"; "i8" ], DT_I8)
            yield mk_ldind ([ "ldind"; "u1" ], DT_U1)
            yield mk_ldind ([ "ldind"; "u2" ], DT_U2)
            yield mk_ldind ([ "ldind"; "u4" ], DT_U4)
            yield mk_ldind ([ "ldind"; "u8" ], DT_I8)
            yield mk_ldind ([ "ldind"; "r4" ], DT_R4)
            yield mk_ldind ([ "ldind"; "r8" ], DT_R8)
            yield mk_ldind ([ "ldind"; "ref" ], DT_REF)
            yield [ "cpblk" ], (fun () -> I_cpblk(Aligned, Nonvolatile))
            yield [ "initblk" ], (fun () -> I_initblk(Aligned, Nonvolatile))
        ]

/// Table of parsing and pretty printing data for instructions.
let Int64Instrs: Lazy<InstrTable<Int64Instr>> =
    lazy [ [ "ldc"; "i8" ], (fun x -> AI_ldc(DT_I8, ILConst.I8 x)) ]

/// Table of parsing and pretty printing data for instructions.
let Int32Instrs: Lazy<InstrTable<Int32Instr>> =
    lazy [ [ "ldc"; "i4" ], mkLdcInt32; [ "ldc"; "i4"; "s" ], mkLdcInt32 ]

/// Table of parsing and pretty printing data for instructions.
let Int32Int32Instrs: Lazy<InstrTable<Int32Int32Instr>> =
    lazy [ [ "ldlen"; "multi" ], EI_ldlen_multi ]

/// Table of parsing and pretty printing data for instructions.
let DoubleInstrs: Lazy<InstrTable<DoubleInstr>> =
    lazy
        [
            [ "ldc"; "r4" ], (fun x -> AI_ldc(DT_R4, x))
            [ "ldc"; "r8" ], (fun x -> AI_ldc(DT_R8, x))
        ]

/// Table of parsing and pretty printing data for instructions.
let StringInstrs: Lazy<InstrTable<StringInstr>> = lazy [ [ "ldstr" ], I_ldstr ]

/// Table of parsing and pretty printing data for instructions.
let TokenInstrs: Lazy<InstrTable<TokenInstr>> = lazy [ [ "ldtoken" ], I_ldtoken ]

/// Table of parsing and pretty printing data for instructions.
let TypeInstrs: Lazy<InstrTable<TypeInstr>> =
    lazy
        [
            [ "ldelema" ], (fun x -> I_ldelema(NormalAddress, false, ILArrayShape.SingleDimensional, x))
            [ "ldelem"; "any" ], (fun x -> I_ldelem_any(ILArrayShape.SingleDimensional, x))
            [ "stelem"; "any" ], (fun x -> I_stelem_any(ILArrayShape.SingleDimensional, x))
            [ "newarr" ], (fun x -> I_newarr(ILArrayShape.SingleDimensional, x))
            [ "castclass" ], I_castclass
            [ "ilzero" ], EI_ilzero
            [ "isinst" ], I_isinst
            [ "initobj"; "any" ], I_initobj
            [ "unbox"; "any" ], I_unbox_any
        ]

/// Table of parsing and pretty printing data for instructions.
let IntTypeInstrs: Lazy<InstrTable<IntTypeInstr>> =
    lazy
        [
            [ "ldelem"; "multi" ], (fun (x, y) -> I_ldelem_any(ILArrayShape.FromRank x, y))
            [ "stelem"; "multi" ], (fun (x, y) -> I_stelem_any(ILArrayShape.FromRank x, y))
            [ "newarr"; "multi" ], (fun (x, y) -> I_newarr(ILArrayShape.FromRank x, y))
            [ "ldelema"; "multi" ], (fun (x, y) -> I_ldelema(NormalAddress, false, ILArrayShape.FromRank x, y))
        ]

/// Table of parsing and pretty printing data for instructions.
let ValueTypeInstrs: Lazy<InstrTable<ValueTypeInstr>> =
    lazy
        [
            [ "cpobj" ], I_cpobj
            [ "initobj" ], I_initobj
            [ "ldobj" ], (fun z -> I_ldobj(Aligned, Nonvolatile, z))
            [ "stobj" ], (fun z -> I_stobj(Aligned, Nonvolatile, z))
            [ "sizeof" ], I_sizeof
            [ "box" ], I_box
            [ "unbox" ], I_unbox
        ]
